Inhibition of T7 and T3 RNA polymerase directed transcription elongationin vitro

Inhibition of T7 and T3 RNA polymerase directed transcription elongation in vitro.

A class of oligonucleotides which binds to naturally-occurring duplex DNA sites at physiologic pH to form triple helical structures was used as transcription attenuators in an in vitro transcription assay. Oligonucleotides were designed to form triple helices with a purine-rich, double-stranded target by binding in the major groove in an orientation anti-parallel to the most purine-rich strand ...

Inhibition of T7 RNA polymerase by T7 lysozyme in vitro.

The in vivo observation that the expression of bacteriophage T7 gene 3.5 (T7 lysozyme) inactivates T7 class II transcription and the in vitro observation that T7 lysozyme inhibits T7 RNA polymerase lead to the hypothesis that T7 lysozyme might preferentially inhibit transcription from T7 class II promoters. T7 lysozyme was cloned into a lambda pL expression vector, overproduced in Escherichia c...

Synthetic polyamines stimulate in vitro transcription by T7 RNA polymerase.

The influence of nine synthetic polyamines on in vitro transcription with T7 RNA polymerase has been studied. The compounds used were linear or macrocyclic tetra- and hexaamine, varying in their size, shape and number of protonated groups. Their effect was tested on different types of templates, all presenting the T7 RNA promoter in a double-stranded form followed by sequences encoding short tr...

Physical mapping of hybrid bacteriophage T7/T3 RNA polymerase genes.

The late regions of the T7 and T3 bacteriophage genomes are transcribed by phage-specified RNA polymerases, the products of gene 1. Although these phage transcriptional systems share many characteristics and are obviously related, they have diverged to such an extent that neither of their respective RNA polymerases utilizes the promotor sites of the other phage at an appreciable rate. However, ...

Bacteriophage T3- and T7-directed deoxyribonucleases.